Ironing heads and ironing machines

By incorporating air guides and rectifiers within the ironing head, the airflow path is optimized, solving the problem of excessive ironing noise and achieving quieter and more efficient garment adsorption.

CN224431068UActive Publication Date: 2026-06-30ZHEJIANG SHAOXING SUPOR DOMESTIC ELECTRICAL APPLIANCE CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG SHAOXING SUPOR DOMESTIC ELECTRICAL APPLIANCE CO LTD
Filing Date
2025-07-09
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing irons are noisy when they pick up clothes, mainly due to turbulent airflow inside the casing.

Method used

An air guide and a rectifier are installed inside the casing of the ironing head. The air guide guides the airflow through the air guide ribs, and the rectifier further straightens the airflow direction and reduces turbulence. The rectifier is detachably connected to the casing to adapt to different airflow requirements.

Benefits of technology

By optimizing the airflow path, the noise of the ironing machine is significantly reduced, while the suction power and structural compactness are improved.

✦ Generated by Eureka AI based on patent content.

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Abstract

This application provides an ironing head and an ironing machine, belonging to the field of household appliance technology. The ironing head includes: an ironing panel; a housing, the ironing panel being disposed on the housing, the housing having an air outlet for communicating with an air inlet of a suction component; and an air guide, disposed within the housing, configured to guide air entering the housing through the ironing panel to the air outlet. When air flows within the housing, the air guide can guide the direction of airflow, reducing turbulence and thus reducing the noise of the ironing machine.
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Description

Technical Field

[0001] This application relates to the field of household appliance technology, and more particularly to an ironing head and an ironing machine. Background Technology

[0002] An iron is a household appliance used for ironing clothes. It can absorb and iron clothes while they are hanging.

[0003] In related technologies, an ironing machine includes an ironing machine body and an ironing head disposed on the ironing machine body. The ironing machine body uses the ironing head to absorb and iron the clothes.

[0004] However, the ironing head makes a lot of noise when it picks up clothes. Utility Model Content

[0005] This application provides an ironing head and an ironing machine to solve the problem of excessive noise in existing ironing machines.

[0006] In a first aspect, embodiments of this application provide an ironing head, comprising:

[0007] Ironing board;

[0008] The housing has an ironing panel mounted on it, and the housing has an air outlet for communicating with the air inlet of the suction unit.

[0009] An air guide is disposed inside the housing and is configured to guide the air entering the housing through the ironing panel to the air outlet.

[0010] Thus, the casing has an air outlet connected to the suction unit. When the suction unit is running, outside air is drawn into the casing from the ironing panel, and the airflow passes through the casing and flows from the air outlet to the suction unit. An air guide is installed inside the casing, which guides the direction of airflow within the casing, reducing turbulence and allowing the air to flow more smoothly to the air outlet. Furthermore, the smoother airflow within the casing reduces noise, thereby reducing the overall noise level of the iron.

[0011] In one possible implementation, the ironing head provided in this application embodiment further includes a rectifier, which is disposed on the air outlet and is detachably connected to the housing. An air guide is located between the ironing panel and the rectifier. The rectifier is configured to rectify the air at the air outlet and guide it to the air inlet of the suction component.

[0012] In this way, the rectifier and the air guide can be combined to sort the airflow at the outlet, further optimize the stability and directionality of the airflow, and reduce the degree of airflow turbulence.

[0013] In one possible implementation, the ironing head provided in this application embodiment has an air intake on the ironing panel, a receiving cavity formed inside the housing, and both the air outlet and the air intake are connected to the receiving cavity.

[0014] This eliminates the need for additional airflow channels inside the casing and effectively ensures airflow between the air intake and exhaust, resulting in a more compact ironing machine structure.

[0015] In one possible implementation, the ironing head provided in this application embodiment includes a plurality of air guide ribs, which are disposed on the inner wall of the housing and are spaced apart around the inner wall of the housing.

[0016] In this way, the air guide ribs can correspond to the air intakes set around the ironing panel, thereby ensuring that the airflow around the inner periphery of the housing can be effectively guided, and the noise reduction effect is more significant.

[0017] In one possible implementation, the ironing head provided in this application embodiment has air guide ribs extending from the ironing panel to the air outlet.

[0018] In this way, the air guide ribs can stably guide the airflow from the ironing panel to the air outlet, allowing the airflow to flow in an orderly manner along the direction of the air guide ribs.

[0019] In one possible implementation, the ironing head provided in this application embodiment has an air guide rib including a first air guide portion and a second air guide portion. The second air guide portion is located between the first air guide portion and the air outlet portion to guide the air entering the housing through the ironing panel, and sequentially through the first air guide portion and the second air guide portion to the air outlet portion.

[0020] In this way, the airflow can be initially guided by the first guide section, and then the direction can be further adjusted by the second guide section, so as to achieve precise control of the airflow direction.

[0021] In one possible implementation, the ironing head provided in this application embodiment has a first guide portion and a second guide portion that are staggered.

[0022] This causes the airflow to travel along a staggered, tortuous path, lengthening the flow path within the casing and reducing the probability of vortices forming within the casing, so that the air guide ribs can better guide the airflow.

[0023] In one possible implementation, the ironing head provided in this application embodiment has a first guide portion and a second guide portion that are at least partially corresponding one-to-one.

[0024] In this way, the airflow can flow more smoothly along the first and second guide sections, which can also reduce the probability of the airflow forming vortices inside the shell.

[0025] In one possible implementation, the ironing head provided in this application embodiment has a housing comprising:

[0026] Enclosure section;

[0027] The support part is arranged around one end of the enclosure part, the ironing panel is arranged at the end of the support part away from the enclosure part, and the air outlet is located at the other end of the enclosure part. The area of ​​the air outlet is smaller than the area of ​​the ironing panel.

[0028] This ensures that sufficient airflow can enter the receiving cavity 124 through the air inlet of the ironing panel and be concentrated towards the air outlet.

[0029] In one possible implementation, the ironing head provided in this application embodiment has air guide ribs that extend from the inner wall of the support portion to the inner wall of the enclosure portion and are adjacent to the air outlet portion.

[0030] In this way, the air guide ribs can continuously guide the airflow, ensuring that the air guide ribs have a stable and reliable guiding effect on the airflow.

[0031] In one possible implementation, the ironing head provided in this application embodiment has at least one end of the air guide rib extending in a smooth transition or tangential to the inner wall of the housing.

[0032] Alternatively, at least one end of the extension direction of at least one of the first and second guide portions may smoothly transition to or be tangential to the inner wall of the housing.

[0033] In this way, the resistance of the ends of the first and second guide sections to the airflow is reduced, making the airflow smoother and the noise lower.

[0034] In one possible implementation, the ironing head provided in this application embodiment has a plurality of rectifier holes on the rectifier component, and the sum of the areas of each rectifier hole is greater than or equal to 30% of the area of ​​the air outlet and less than or equal to 80% of the area of ​​the air outlet.

[0035] In this way, the airflow can be combed and regulated as it passes through the rectifier, and divided into multiple smaller airflows, making the airflow more stable, reducing the degree of airflow turbulence, and thus reducing noise.

[0036] Secondly, embodiments of this application provide an ironing machine, including an ironing machine body and an ironing head disposed on the ironing machine body. The ironing machine body includes a suction component, and the air inlet of the suction component is connected to the air outlet of the ironing head.

[0037] In addition to the technical problems solved by this application, the technical features constituting the technical solutions, and the beneficial effects brought about by the technical features of these technical solutions as described above, other technical problems that can be solved by the suction head and suction machine provided by this application, other technical features contained in the technical solutions, and the beneficial effects brought about by these technical features will be further explained in detail in the specific embodiments. Attached Figure Description

[0038] The accompanying drawings, which are incorporated in and form part of this specification, illustrate embodiments consistent with this application and, together with the description, serve to explain the principles of this application.

[0039] Figure 1 This is a schematic diagram of the ironing machine provided in an embodiment of this application;

[0040] Figure 2 for Figure 1 A schematic diagram of the casing of the ironing head of a Chinese-style ironing machine;

[0041] Figure 3 for Figure 2 Schematic diagram of the middle shell structure;

[0042] Figure 4 for Figure 2 Schematic diagram of the intermediate rectifier;

[0043] Figure 5 for Figure 1 Schematic diagram of the internal structure of the medium ironing head;

[0044] Figure 6 for Figure 3 Sectional view of AA.

[0045] Explanation of reference numerals in the attached figures:

[0046] 100. Ironing hair;

[0047] 110. Ironing panel; 111. Air intake; 112. Sealing element;

[0048] 120. Shell; 121. Air outlet; 122. Enclosure; 123. Support; 124. Receiving cavity;

[0049] 130. Air guide component; 131. Air guide rib; 1311. First air guide section; 1312. Second air guide section;

[0050] 140. Rectifier component; 141. Rectifier aperture;

[0051] 200. Ironing machine body.

[0052] The accompanying drawings illustrate specific embodiments of this application, which will be described in more detail below. These drawings and descriptions are not intended to limit the scope of the concept in any way, but rather to illustrate the concept of this application to those skilled in the art through reference to particular embodiments. Detailed Implementation

[0053] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model. In the absence of conflict, the following embodiments and features can be combined with each other.

[0054] The ironing machine includes an ironing body and an ironing head mounted on the ironing body. The ironing head includes a housing and an ironing panel mounted on the housing. The housing has an airflow channel, and the ironing panel has an air intake that communicates with the airflow channel. The ironing panel uses the airflow channel and the air intake to pick up and iron the clothes.

[0055] However, the air inlets are usually located on the outer periphery of the ironing panel and are distributed relatively far apart. When the ironing head picks up clothes, the airflow enters the housing from each air inlet separately, which makes the airflow more turbulent and thus results in a louder noise from the iron.

[0056] To overcome the deficiencies in the prior art, the ironing head and ironing machine provided in this application include an ironing head comprising a housing, an ironing panel disposed on the housing, and an air guide disposed within the housing. The housing has an air outlet communicating with a suction component, so that when the suction component is operating, external air can be drawn into the housing from the ironing panel and flow through the housing from the air outlet to the suction component. The air guide disposed within the housing guides the airflow direction within the housing, reducing turbulence and allowing the air to flow more smoothly to the air outlet. Furthermore, the smoother airflow within the housing reduces noise, thereby reducing the noise of the ironing machine.

[0057] To facilitate understanding, the application scenarios of the embodiments of this application will be described first.

[0058] The clothing that the steam iron is used to steam should be interpreted broadly, including but not limited to clothes, trousers and other items for wearing, as well as fabrics such as curtains, sheets and duvet covers. This application does not specifically limit this, and will be referred to as "clothing" below without further specific examples.

[0059] The present invention will now be described in detail with reference to the accompanying drawings, so that those skilled in the art can have a clearer and more detailed understanding of the present invention.

[0060] Reference Figures 1 to 6 As shown, this application embodiment provides an ironing head 100, including:

[0061] Ironing board 110;

[0062] The housing 120 has an ironing panel 110 disposed on it, and the housing 120 has an air outlet 121 for communicating with the air inlet of the suction component.

[0063] An air guide 130 is disposed inside the housing 120 and is configured to guide the air entering the housing 120 via the ironing panel 110 to the air outlet 121.

[0064] It is understandable that the housing 120 is provided with an ironing panel 110, and the interior of the housing 120 can be used to house the heating element of the ironing machine, so that when the ironing panel 110 comes into contact with the clothes, the heating element can iron the clothes through the ironing panel 110.

[0065] An air outlet 121 is also provided on the housing 120. The air outlet 121 is connected to the air inlet of the suction component of the ironing machine. This allows the suction component to draw outside air into the housing 120 through the ironing panel 110 and further allow the air to enter the air inlet of the suction component. At the same time, it enables the clothes to adhere to the ironing panel 110 for easy ironing.

[0066] An air guide 130 is also provided inside the housing 120. By providing the air guide 130, the flow direction and flow rate of the airflow inside the housing 120 can be guided, controlled or redistributed, thereby changing the airflow path. As a result, when the airflow flows inside the housing 120, the flow direction of the airflow will be consistent with the preset flow direction formed by the air guide 130, which is more neat, smooth and even, thereby reducing the noise of the airflow.

[0067] Therefore, the ironing head 100 provided in this application embodiment includes a housing 120, an ironing panel 110 disposed on the housing 120, and an air guide 130 disposed inside the housing 120. The housing 120 has an air outlet 121 communicating with a suction component, so that when the suction component is running, external air can be drawn into the housing 120 from the ironing panel 110, and the airflow passes through the housing 120 and flows from the air outlet 121 to the suction component. The air guide 130 is disposed inside the housing 120, so that when air flows inside the housing 120, the air guide 130 can guide the direction of airflow within the housing 120, reducing the turbulence of airflow within the housing 120 and allowing the air to flow more smoothly to the air outlet 121. Furthermore, because the airflow within the housing 120 is smoother, the noise during airflow is correspondingly reduced, thereby reducing the noise of the ironing machine.

[0068] In some embodiments, refer to Figures 1 to 4 As shown, the ironing head 100 provided in this application embodiment also includes a rectifier 140. The rectifier 140 is disposed on the air outlet 121 and is detachably connected to the housing 120. The air guide 130 is located between the ironing panel 110 and the rectifier 140. The rectifier 140 is configured to rectify the air at the air outlet 121 and guide it to the air inlet of the suction component.

[0069] It is understandable that by setting a rectifier on the air outlet 121, the air at the air outlet 121 is rectified by the rectifier 140 and flows to the suction unit. The rectifier can further optimize the airflow at the air outlet 121 based on the guidance of the air guide 130, thereby reducing the stability and directionality of the airflow, reducing the degree of airflow turbulence, and making the airflow entering the air inlet of the suction unit more stable, reducing the operating noise of the suction unit, and thus reducing the noise of the ironing head 100 and the ironing machine.

[0070] Furthermore, the air guide 130 and the rectifier 140 work together to make the airflow inside the ironing head 100 smoother, which can also improve the suction at the air intake 111 of the ironing panel 110 to a certain extent, thereby improving the ironing machine's adsorption effect on clothes.

[0071] The rectifier 140 is detachably connected to the housing 120, which makes the ironing head 100 easier to disassemble and maintain, and also allows for flexible disassembly and assembly of the rectifier 140 according to the airflow and noise requirements during use.

[0072] In some embodiments, refer to Figure 1 and Figure 2 As shown, an air intake 111 is provided on the ironing panel 110, and a receiving cavity 124 is formed inside the housing 120. Both the air outlet 121 and the air intake 111 are connected to the receiving cavity 124.

[0073] It is understandable that by forming a receiving cavity 124 inside the housing 120, it is convenient to install the heating components or other parts of the ironing machine. The air intake 111 on the ironing panel 110 and the air outlet 121 on the housing 120 are directly connected through the receiving cavity 124, which can eliminate the need to set up an additional airflow channel inside the housing 120 and effectively ensure airflow between the air intake 111 and the air outlet 121, making the ironing machine structure more compact.

[0074] In some embodiments, reference is made to Figures 1 to 3 As shown, the air guide 130 includes a plurality of air guide ribs 131, which are disposed on the inner wall of the housing 120 and are spaced apart around the inner wall of the housing 120.

[0075] It is understandable that by forming an air guide 130 by arranging multiple air guide ribs 131 at intervals on the inner wall of the housing 120, the air guide 130 occupies less space in the internal cavity 124 of the housing 120, thus improving the space utilization of the cavity 124. Furthermore, since the air guide ribs 131 themselves have a relatively simple structure, setting the air guide 130 as multiple air guide ribs 131 makes the structure of the air guide 130 simple and easy to install.

[0076] Furthermore, each air guide rib 131 is arranged around the periphery of the inner wall of the housing 120, so that the air guide rib 131 corresponds to the air intake 111 arranged around the ironing panel 110, thereby ensuring that the airflow on the inner periphery of the housing 120 can be effectively guided, the noise reduction effect is more significant, and the adsorption force is improved more evenly.

[0077] It should be noted that the protrusion height of the air guide rib 131 relative to the inner wall of the housing 120 can be determined according to the size of the accommodating cavity 124 and the installation requirements of the components inside the accommodating cavity 124. Specifically, the protrusion height of the air guide rib 131 can be set to abut and cooperate with the components installed inside the accommodating cavity 124 so that the air guide rib 131 can effectively guide the airflow inside the housing 120, resulting in a better airflow guidance and noise reduction effect. This application does not impose any restrictions on this.

[0078] Among them, reference Figures 1 to 3 The air guide rib 131 extends from the ironing panel 110 to the air outlet 121.

[0079] It is easy to understand that by setting the air guide rib 131 to extend from one side of the ironing panel 110 to the side of the air outlet 121, the air guide rib 131 can stably guide the airflow from the ironing panel 110 to the air outlet 121, so that the airflow flows in an orderly manner along the direction of the air guide rib 131, reducing the disorderly flow of airflow in the housing 120, and thus reducing the noise caused by airflow turbulence.

[0080] In specific implementation, refer to Figures 1 to 3As shown, the air guide rib 131 includes a first air guide portion 1311 and a second air guide portion 1312. The second air guide portion 1312 is located between the first air guide portion 1311 and the air outlet portion 121 to guide the air entering the housing 120 through the ironing panel 110, and sequentially through the first air guide portion 1311 and the second air guide portion 1312 to the air outlet portion 121.

[0081] It is understandable that by setting at least one first air guide 1311 and at least one second air guide 1312 to form an air guide rib 131, the air guide rib 131 can guide the airflow inside the housing 120 more precisely. After the airflow enters the housing 120 from the ironing panel 110, it can be initially guided by the first air guide 1311 and then further adjusted in direction by the second air guide 1312, so as to achieve precise control of the airflow direction. In this way, by guiding the airflow in stages, the degree of airflow turbulence can be effectively reduced, the vortex and turbulence generated during the airflow process can be reduced, and the airflow can be made more stable and orderly, thereby reducing the noise of the ironing head 100.

[0082] The first guide portion 1311 and the second guide portion 1312 of the same air guide rib 131 can be spaced apart along the extension direction of the air guide rib 131 to form a two-section structure, or they can be connected into a whole. This application does not limit this. When the first guide portion 1311 and the second guide portion 1312 form a two-section structure, a gap can be formed between the first guide portion 1311 and the second guide portion 1312, which facilitates a more stable and reliable installation of other components inside the housing 120.

[0083] Furthermore, referring to Figure 5 As shown, a sealing element 112 may be provided at the end of the first guide section 1311 opposite to the second guide section 1312, so that the end of the first guide section 1311 abuts against the sealing element 112, and a ventilation hole is opened on the sealing element 112 to ensure the sealing between the heating component inside the housing 120 and the housing 120, and between the ironing panel 110 and the housing 120, and to ensure that the airflow can flow stably through the ventilation hole.

[0084] In some embodiments, refer to Figures 1 to 3 ,and Figure 5 and Figure 6 As shown, the first guide section 1311 and the second guide section 1312 are staggered.

[0085] Understandably, the first guide section 1311 and the second guide section 1312 are arranged alternately along the extension direction of the guide rib 131, so that when the airflow passes through the first guide section 1311 and the second guide section 1312 in sequence, it will not flow along a single extension direction, but will move along a tortuous path formed by the staggered arrangement. This can prolong the flow path of the airflow in the housing 120 and increase the contact time between the airflow and the guide rib 131, reducing the probability of the airflow forming vortices in the housing 120, so that the guide rib 131 can better guide the airflow.

[0086] Furthermore, the number of first guide sections 1311 can be increased accordingly, thereby reducing the spacing between the first guide sections 1311, so that the spacing between two adjacent first guide sections 1311 can be less than or equal to the spacing between two adjacent second guide sections 1312, thereby improving the initial guiding effect of the first guide section 1311 on the airflow, so that the second guide section 1312 can guide the airflow more efficiently.

[0087] Furthermore, in some embodiments, the first guide portion 1311 and the second guide portion 1312 are at least partially corresponding one-to-one.

[0088] It is easy to understand that this design allows the airflow to flow more smoothly along the path of the first guide section 1311 and the second guide section 1312, and also reduces the probability of the airflow forming vortices in the housing 120.

[0089] Based on the staggered arrangement of the first guide section 1311 and the second guide section 1312, by adjusting the setting gap between two adjacent first guide sections 1311 or increasing the number of first guide sections 1311, it is easy to achieve a one-to-one correspondence between some first guide sections 1311 and second guide sections 1312. This allows the airflow passing through the one-to-one corresponded first guide sections 1311 and second guide sections 1312 to enter the suction component with a shorter flow path. In this way, while ensuring the air guide rib 131's guiding and noise reduction effect on the airflow, the suction component can still have sufficient airflow, thus optimizing the adsorption force of the ironing head 100.

[0090] Furthermore, in some embodiments, reference is made to Figures 1 to 3 ,and Figure 5 and Figure 6 As shown, the housing 120 includes:

[0091] Enclosure section 122;

[0092] The support part 123 is arranged around one end of the enclosure part 122. The ironing panel 110 is arranged at one end of the support part 123 away from the enclosure part 122. The air outlet 121 is located at the other end of the enclosure part 122. The area of ​​the air outlet 121 is smaller than the area of ​​the ironing panel 110.

[0093] It is understandable that the enclosure 122 gradually decreases in size towards one end, so that the air outlet 121 is located at that end, and the area of ​​the air outlet 121 is smaller than the area of ​​the ironing panel 110. This makes it easier for the airflow flowing through the housing 120 to gradually concentrate at the air outlet 121, thereby increasing the airflow velocity at the air outlet 121, improving the adsorption efficiency of the ironing head 100, and allowing the ironing panel 110 to better adsorb clothing.

[0094] The support portion 123 is located on the enclosure portion 122 at one end opposite to the air outlet portion 121, and the dimensions of both ends of the support portion 123 are basically the same, thereby ensuring that sufficient airflow can enter the receiving cavity 124 through the air intake 111 of the ironing panel 110. Furthermore, the support portion 123 provides stable support for the installation of the ironing panel 110, while also making the space layout of the receiving cavity 124 more spacious, allowing other components to be installed at the support portion 123, making the ironing head 100 structure more compact.

[0095] The air guide rib 131 extends from the inner wall of the support part 123 to the inner wall of the enclosure part 122 and is adjacent to the air outlet part 121.

[0096] This design allows for a longer extension length of the air guide rib 131, facilitating full contact between the air guide rib 131 and the airflow within the housing 120, thereby enhancing the airflow guiding effect of the air guide rib 131. Furthermore, the adjacent proximity of the air guide rib 131 to the air outlet 121 ensures that the air guide rib 131 continuously guides the airflow until it exits from the air outlet 121, guaranteeing a stable and reliable airflow guiding effect.

[0097] Furthermore, in some embodiments, at least one end of the air guide rib 131 extends smoothly into or is tangential to the inner wall of the housing 120.

[0098] Alternatively, at least one end of the extension direction of at least one of the first guide portion 1311 and the second guide portion 1312 may smoothly transition to or be tangential to the inner wall of the housing 120.

[0099] It is understandable that, regardless of whether the first guide section 1311 and the second guide section 1312 of the air guide rib 131 are connected as one piece or are arranged in a two-section structure, the ends of the first guide section 1311 and the second guide section 1312 on the air guide rib 131 can be smoothly transitioned or tangent to the inner wall of the housing 120, so that the ends are streamlined. This reduces the resistance of the ends of the first guide section 1311 and the second guide section 1312 to the airflow, making the airflow smoother and the noise lower.

[0100] Furthermore, in some embodiments, reference is made to Figures 2 to 4As shown, the rectifier 140 is provided with a plurality of rectifier holes 141, and the sum of the areas of each rectifier hole 141 is greater than or equal to 30% of the area of ​​the air outlet 121 and less than or equal to 80% of the area of ​​the air outlet 121.

[0101] It is understandable that when the airflow passes through the rectifier 140, it can be further sorted and regulated by the rectifier hole 141, which divides it into multiple smaller airflows. Under the constraint of the rectifier hole 141, these smaller airflows have more consistent direction and speed, thereby enhancing the rectification effect, making the airflow entering the air inlet of the suction component more stable, reducing the degree of airflow turbulence, and thus reducing the noise generated by the suction component during operation.

[0102] The sum of the areas of all the rectifier holes 141 is 30%-80% of the area of ​​the air outlet 121, ensuring sufficient airflow through the rectifier 140. This prevents the airflow from being obstructed due to the small total area of ​​the rectifier holes 141, which would significantly reduce the airflow and affect the suction force at the air intake 111 of the ironing head 100, thus reducing the iron's ability to absorb clothing. In this way, the rectifier 140 effectively rectifies the airflow, reducing noise, while ensuring sufficient airflow and good suction force, allowing the iron to absorb clothing more effectively.

[0103] This application embodiment also provides an ironing machine, including an ironing machine body and an ironing head 100 disposed on the ironing machine body. The ironing machine body includes a suction component, and the air inlet of the suction component is connected to the air outlet 121 of the ironing head 100.

[0104] The ironing head 100 has been described in detail in the above embodiments and will not be repeated here.

[0105] The ironing machine provided in this embodiment includes an ironing head 100, which comprises a housing 120, an ironing panel 110 disposed on the housing 120, and an air guide 130 disposed within the housing 120. The housing 120 has an air outlet 121 communicating with a suction component. When the suction component is operating, external air is drawn into the housing 120 from the ironing panel 110 and flows through the housing 120 from the air outlet 121 to the suction component. The air guide 130 within the housing 120 guides the airflow direction, reducing turbulence and allowing for smoother airflow to the air outlet 121. Furthermore, the smoother airflow within the housing 120 reduces noise, thus lowering the overall noise level of the ironing machine.

[0106] It should be noted that the embodiments referred to in the specification, such as "one embodiment," "embodiment," "exemplary embodiment," and "some embodiments," may include specific features, structures, or characteristics, but not every embodiment necessarily includes that specific feature, structure, or characteristic. Furthermore, such phrases do not necessarily refer to the same embodiment. Moreover, when a specific feature, structure, or characteristic is described in connection with an embodiment, implementing such a feature, structure, or characteristic in conjunction with other embodiments, whether explicitly described or not, is within the knowledge scope of those skilled in the art.

[0107] Generally speaking, terms should be understood at least in part by their use in context. For example, at least in part by context, the term "one or more" as used in the text can be used to describe any feature, structure, or characteristic of the singular meaning, or a combination of features, structures, or characteristics of the plural meaning. Similarly, at least in part by context, terms such as "a" or "the" can also be understood to convey either singular or plural usage.

[0108] It should be readily understood that the terms “on,” “above,” and “on top of” in this application should be interpreted in the broadest possible sense, such that “on” means not only “directly on something” but also “on something” with an intermediate feature or layer therebetween, and that “above” or “on top of” means not only “on something” but also “on something” without an intermediate feature or layer therebetween (i.e., directly on something).

[0109] Furthermore, for ease of explanation, spatially relative terms such as "below," "below," "under," "above," and "above" may be used to describe the relationship of one element or feature relative to other elements or features as shown in the figures. Spatially relative terms are intended to encompass different orientations of the device in use or operation other than those shown in the figures. The device may have other orientations (rotated 90° or in other orientations), and the spatially relative descriptive terms used herein may be interpreted accordingly.

[0110] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model, and are not intended to limit it. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some or all of the technical features therein. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this utility model.

Claims

1. An ironing head (100), characterized in that, include: Ironing board (110); The housing (120) has an ironing panel (110) disposed on the housing (120) and the housing (120) has an air outlet (121) for communicating with the air inlet of the suction component. An air guide (130) is disposed within the housing (120) and is configured to guide air entering the housing (120) via the ironing panel (110) to the air outlet (121).

2. The ironing head (100) according to claim 1, characterized in that, It also includes a rectifier (140) disposed on the air outlet (121) and detachably connected to the housing (120). The air guide (130) is located between the ironing panel (110) and the rectifier (140). The rectifier (140) is configured to rectify the air at the air outlet (121) and guide it to the air inlet of the suction component.

3. The ironing head (100) according to claim 1 or 2, characterized in that, An air intake (111) is provided on the ironing panel (110), and a receiving cavity (124) is formed inside the housing (120). The air outlet (121) and the air intake (111) are both connected to the receiving cavity (124).

4. The ironing head (100) according to claim 1 or 2, characterized in that, The air guide (130) includes a plurality of air guide ribs (131), which are disposed on the inner wall of the housing (120) and are spaced apart around the inner wall of the housing (120).

5. The ironing head (100) according to claim 4, characterized in that, The air guide rib (131) extends from the ironing panel (110) to the air outlet (121).

6. The ironing head (100) according to claim 4, characterized in that, The air guide rib (131) includes a first air guide section (1311) and a second air guide section (1312). The second air guide section (1312) is located between the first air guide section (1311) and the air outlet section (121) to guide the air entering the housing (120) through the ironing panel (110) and sequentially through the first air guide section (1311) and the second air guide section (1312) to the air outlet section (121).

7. The ironing head (100) according to claim 6, characterized in that, The first guide section (1311) and the second guide section (1312) are staggered.

8. The ironing head (100) according to claim 6, characterized in that, The first guide section (1311) and the second guide section (1312) are at least partially corresponding one-to-one.

9. The ironing head (100) according to claim 6, characterized in that, The housing (120) includes: Enclosure section (122); A support part (123) is arranged around one end of the enclosure part (122), and an ironing panel (110) is arranged at one end of the support part (123) away from the enclosure part (122). An air outlet (121) is located at the other end of the enclosure part (122), and the area of ​​the air outlet (121) is smaller than the area of ​​the ironing panel (110).

10. The ironing head (100) according to claim 9, characterized in that, The air guide rib (131) extends from the inner wall of the support part (123) to the inner wall of the enclosure part (122) and is adjacent to the air outlet part (121).

11. The ironing head (100) according to claim 9, characterized in that, At least one end of the air guide rib (131) extends smoothly into or is tangential to the inner wall of the housing (120); Alternatively, at least one end of the extension direction of at least one of the first guide portion (1311) and the second guide portion (1312) may smoothly transition or be tangential to the inner wall of the housing (120).

12. The ironing head (100) according to claim 2, characterized in that, The rectifier (140) is provided with a plurality of rectifier holes (141), and the sum of the areas of each rectifier hole (141) is greater than or equal to 30% of the area of ​​the air outlet (121) and less than or equal to 80% of the area of ​​the air outlet (121).

13. An ironing machine, characterized in that, It includes an ironing machine body and an ironing head (100) disposed on the ironing machine body. The ironing machine body includes a suction component, and the air inlet of the suction component is connected to the air outlet (121) of the ironing head (100).